A model for the dynamics of extensible semiflexible polymers

Abstract

We present a model for semiflexible polymers in Hamiltonian formulation which interpolates between a Rouse chain and worm-like chain. Both models are realized as limits for the parameters. The model parameters can also be chosen to match the experimental force-extension curve for double-stranded DNA. Near the ground state of the Hamiltonian, the eigenvalues for the longitudinal (stretching) and the transversal (bending) modes of a chain with N springs, indexed by p, scale as lambdalp ~ (p/N)2 and lambdatp ~ p2(p-1)2/N4 respectively for small p. We also show that the associated decay times taup ~ (N/p)4 will not be observed if they exceed the orientational time scale taur ~ N3 for an equally-long rigid rod, as the driven decay is then washed out by diffusive motion.